Temporal ecology of a subalpine ecosystem: Plant communities, plant-pollinator interactions, & climate change.

Abstract

Ecological systems are inherently dynamic, and a primary way in which they are dynamic is through time. Individual organisms, populations, communities, species interactions, and ecosystem functions all follow a temporal progression from the past, to the present, and into the future. This temporal progression can occur over the course of minutes, hours, days, weeks, months, years, decades, or various other timescales. In this sense, temporal dynamics are an intrinsic property of all biological systems. In fact, one of the most prominent signals of recent global climate change is the significant change in the timing of biological events for a diversity of organisms. In light of this widespread pattern, there is a renewed interest in understanding the multifaceted importance of time in ecology. In this dissertation, I investigate the temporal ecology of a subalpine ecosystem, specifically focusing on flowering plant communities and plant-pollinator interactions. I examine the temporal dynamics of this system over multiple decades in response to ongoing climate change as well as over shorter time scales within a growing season. Using a 39-year record of flowering phenology, I show that species-specific shifts in the timing of flowering in response to climate change can substantially reshape a subalpine plant community over this time period. Community phylogenetic analyses reveal that these changes are largely independent of evolutionary history. Using a laboratory experiment, I show that the timing of an important harsh abiotic event – low temperatures that cause frost damage to plants – can differentially affect flowering plant species, with implications for plant demography, community structure, and interactions with pollinators. Finally, I show that plant- pollinator interactions exhibit substantial within-season temporal turnover, and that this temporal flexibility of plant-pollinator interactions from one week to the next is consistent and predictable 8 across years. Taken together, this dissertation provides a multifaceted investigation of the temporal ecology of plant communities and plant-pollinator interactions, revealing the important consequences of ecological timing at short-term and longer-term scales. 9

Local Knowledge Graph (Top 64 entities)

View in full graph →

Loading graph...

Related Works

Items connected by shared entities, co-authorship, citations, or semantic similarity.

Thesis

Effects of Climate Change on Plants, Pollinators and Their Interactions

201838 shared entities

Thesis

Plant–Pollinator interactions in a changing climate

201046 shared entities

Student Paper

Niche breadth changes in response to environmental perturbation: the impact of early snowmelt on subalpine plant-pollinator specialization

201942 shared entities

Document

Vegetation Appendix Materials for Vegetation and Wildlife Studies for the Mount Emmons Project

45 shared entities

Document

A Classification of the Riparian Vegetation of the Gunnison River Basin, Colorado

34 shared entities

Dataset

Data from: The individual and combined effects of snowmelt timing and frost exposure on the reproductive success of montane forbs

201980% similar

Dataset

Data from: Interaction rewiring and the rapid turnover of plant-pollinator networks

201878% similar

Dataset

Phenological responses to multiple environmental drivers under climate change: insights from a long-term observational study and a manipulative field experiment

202176% similar

Document

Colorado?s Alpine Ecosystem Health ? A Case Study on San Juan, Sawatch, and West Elk Mountains

52% similar

References (170)

25 in Knowledge Commons, 145 external

Publication

Frost sensitivity of leaves and flowers of subalpine plants is related to tissue type and phenology.

2015Journal of EcologyDOI: 10.5061/dryad/v4cv6

Publication

Nonlinear flowering responses to climate: are species approaching their limits of phenological change?

2013Philosophical Transactions of the Royal Society B: Biological Sciences

Publication

Long-term trends mask variation in the direction and magnitude of short-term phenological shifts

2013American Journal of Botany

Publication

Long-term trends mask variation in the direction and magnitude of short-term phenological shifts

2013American Journal of Botany

Publication

Single pollinator species losses reduce floral fidelity and plant reproductive function

2013Proceedings of the National Academy of Sciences

Publication

Phenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate change

2012Proceedings of the Royal Society B: Biological Sciences

Publication

Emergence of a mid-season period of low floral resources in a montane meadow ecosystem associated with climate change

2011J Ecol

Temporal ecology of a subalpine ecosystem: Plant communities, plant-pollinator interactions, & climate change.

Abstract

Local Knowledge Graph (Top 64 entities)

Related Works

Effects of Climate Change on Plants, Pollinators and Their Interactions

Plant–Pollinator interactions in a changing climate

Niche breadth changes in response to environmental perturbation: the impact of early snowmelt on subalpine plant-pollinator specialization

Vegetation Appendix Materials for Vegetation and Wildlife Studies for the Mount Emmons Project

A Classification of the Riparian Vegetation of the Gunnison River Basin, Colorado

Data from: The individual and combined effects of snowmelt timing and frost exposure on the reproductive success of montane forbs

Data from: Interaction rewiring and the rapid turnover of plant-pollinator networks

Phenological responses to multiple environmental drivers under climate change: insights from a long-term observational study and a manipulative field experiment

Colorado?s Alpine Ecosystem Health ? A Case Study on San Juan, Sawatch, and West Elk Mountains

References (170)

Frost sensitivity of leaves and flowers of subalpine plants is related to tissue type and phenology.

Nonlinear flowering responses to climate: are species approaching their limits of phenological change?

Long-term trends mask variation in the direction and magnitude of short-term phenological shifts

Long-term trends mask variation in the direction and magnitude of short-term phenological shifts

Single pollinator species losses reduce floral fidelity and plant reproductive function

Phenotypic plasticity and adaptive evolution contribute to advancing flowering phenology in response to climate change

Emergence of a mid-season period of low floral resources in a montane meadow ecosystem associated with climate change

The effects of phenological mismatches on demography

The Ecology of Place

Toward a synthetic understanding of the role of phenology in ecology and evolution

Flowering phenology in subalpine meadows: does climate variation influence community co-flowering patterns?

Consequences of variation in flowering time within and among individuals of <i>Mertensia fusiformis</i> (Boraginaceae), an early spring wildflower

Flowering phenology, fruiting success and progressive deterioration of pollination in an early-flowering geophyte

A global test of the pollination syndrome hypothesis

Variation in the impact of climate change on flowering phenology and abundance: an examination of two pairs of closely related wildflower species

Size-specific interaction patterns and size matching in a plant-pollinator interaction web

Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers

Effects of climate change on phenology, frost damage, and floral abundance of montane wildflowers

Subalpine meadow flowering phenology responses to climate change: integrating experimental and gradient methods

Variation in timing and abundance of flowering by <i>Delphinium barbeyi</i> Huth (Ranunculaceae): the roles of snowpack, frost, and La Niña, in the context of climate change

The ecological and evolutionary significance of frost in the context of climate change

Effects of experimental warming on plant reproductive phenology in a subalpine meadow

Resource and pollen limitations to lifetime seed production in a natural plant population

Competition for bumblebee pollinators in Rocky Mountain plant communities

Competition for hummingbird pollination and sequential flowering in two Colorado wildflowers